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Results: 1 to 20 of 89

Similar articles for PubMed (Select 19747829)

1.

Wnt11/5a complex formation caused by tyrosine sulfation increases canonical signaling activity.

Cha SW, Tadjuidje E, White J, Wells J, Mayhew C, Wylie C, Heasman J.

Curr Biol. 2009 Sep 29;19(18):1573-80. doi: 10.1016/j.cub.2009.07.062. Epub 2009 Sep 10.

2.

Wnt5a and Wnt11 interact in a maternal Dkk1-regulated fashion to activate both canonical and non-canonical signaling in Xenopus axis formation.

Cha SW, Tadjuidje E, Tao Q, Wylie C, Heasman J.

Development. 2008 Nov;135(22):3719-29. doi: 10.1242/dev.029025. Epub 2008 Oct 16.

5.

Wnt11-R, a protein closely related to mammalian Wnt11, is required for heart morphogenesis in Xenopus.

Garriock RJ, D'Agostino SL, Pilcher KC, Krieg PA.

Dev Biol. 2005 Mar 1;279(1):179-92. Erratum in: Dev Biol. 2008 Oct 1;322(1):235.

7.

Kaiso is a bimodal modulator for Wnt/beta-catenin signaling.

Iioka H, Doerner SK, Tamai K.

FEBS Lett. 2009 Feb 18;583(4):627-32. doi: 10.1016/j.febslet.2009.01.012. Epub 2009 Jan 21.

8.

Role of glypican 4 in the regulation of convergent extension movements during gastrulation in Xenopus laevis.

Ohkawara B, Yamamoto TS, Tada M, Ueno N.

Development. 2003 May;130(10):2129-38.

9.

Measuring CamKII activity in Xenopus embryos as a read-out for non-canonical Wnt signaling.

Kühl M, Pandur P.

Methods Mol Biol. 2008;468:173-86. doi: 10.1007/978-1-59745-249-6_13.

PMID:
19099254
10.

Xenopus Wnt11b is identified as a potential pronephric inducer.

Tételin S, Jones EA.

Dev Dyn. 2010 Jan;239(1):148-59. doi: 10.1002/dvdy.22012.

11.

Wnt5a induces homodimerization and activation of Ror2 receptor tyrosine kinase.

Liu Y, Rubin B, Bodine PV, Billiard J.

J Cell Biochem. 2008 Oct 1;105(2):497-502. doi: 10.1002/jcb.21848.

PMID:
18615587
12.

Wnt-4 activates the canonical beta-catenin-mediated Wnt pathway and binds Frizzled-6 CRD: functional implications of Wnt/beta-catenin activity in kidney epithelial cells.

Lyons JP, Mueller UW, Ji H, Everett C, Fang X, Hsieh JC, Barth AM, McCrea PD.

Exp Cell Res. 2004 Aug 15;298(2):369-87.

PMID:
15265686
13.

Wnt-frizzled interactions in Xenopus.

Steinbeisser H, Swain RK.

Methods Mol Biol. 2008;469:451-63. doi: 10.1007/978-1-60327-469-2_28.

PMID:
19109725
14.

Secreted Frizzled-related proteins enhance the diffusion of Wnt ligands and expand their signalling range.

Mii Y, Taira M.

Development. 2009 Dec;136(24):4083-8. doi: 10.1242/dev.032524. Epub 2009 Nov 11.

15.

Wnt11/beta-catenin signaling in both oocytes and early embryos acts through LRP6-mediated regulation of axin.

Kofron M, Birsoy B, Houston D, Tao Q, Wylie C, Heasman J.

Development. 2007 Feb;134(3):503-13. Epub 2007 Jan 3.

16.

Differential expression of the Wnt and Frizzled genes in Flk1+ cells derived from mouse ES cells.

Kim DJ, Park CS, Yoon JK, Song WK.

Cell Biochem Funct. 2008 Jan-Feb;26(1):24-32.

PMID:
17154359
17.

Molecular cloning of the human proto-oncogene Wnt-5A and mapping of the gene (WNT5A) to chromosome 3p14-p21.

Clark CC, Cohen I, Eichstetter I, Cannizzaro LA, McPherson JD, Wasmuth JJ, Iozzo RV.

Genomics. 1993 Nov;18(2):249-60.

PMID:
8288227
18.
19.

XSENP1, a novel sumo-specific protease in Xenopus, inhibits normal head formation by down-regulation of Wnt/beta-catenin signalling.

Yukita A, Michiue T, Fukui A, Sakurai K, Yamamoto H, Ihara M, Kikuchi A, Asashima M.

Genes Cells. 2004 Aug;9(8):723-36.

PMID:
15298680
20.

Reorganization of actin cytoskeleton by FRIED, a Frizzled-8 associated protein tyrosine phosphatase.

Itoh K, Lisovsky M, Hikasa H, Sokol SY.

Dev Dyn. 2005 Sep;234(1):90-101.

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